4.7 Article

Optimization of carboxylated graphene oxide (C-GO) content in polymer matrix: Synthesis, characterization, and application study

Journal

CHEMOSPHERE
Volume 310, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.chemosphere.2022.136900

Keywords

Polysulfone; Carboxylated graphene oxide; Membrane technology; Water permeability; Dye removal

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Carboxylated graphene oxide (C-GO) embedded in polysulfone (PSF) membrane composites with different wt. % were prepared using the NIPS method and UF assembly, showing significant improvements in membrane efficiency and application in various research fields. The C-GO content in the polymer matrix was optimized and found to positively impact the permeation performance of the developed membranes. SEM, XRD, and FTIR were used to characterize the membranes in terms of surface morphology, crystallinity, and functional groups identification. Results showed that increasing the C-GO content increased the water permeability and hydrophilicity of the membranes, with M-3 membrane exhibiting the best performance in terms of water flux and efficient dye rejection. Photocatalytic testing of the M-3 membrane with 0.4% C-GO content showed high dye removal capability under UV-254 nm irradiation.
Carboxylated graphene oxide (C-GO) embedded in polysulfone (PSF) membrane composites were prepared with different wt. % (i.e., 0.2% M-1, 0.3% M-2, 0.4% M-3, and 0.5% M-4) using non-solvent induced phase separation (NIPS) method and ultrafiltration assembly was applied for the removal of dye effluents. The optimization of C-GO content into polymer matrix was found influencing factor in determining the composite membranes efficiency and application in various research fields. The membranes were characterized in terms of surface morphology (SEM), crystallinity (XRD), and functional groups identification (FTIR). The water permeability of the developed membranes was analyzed, and it is observed that increasing the content of C-GO in PSF membranes imposed a positive impact on permeation performance. M - 3 was found to be a potential candidate among all the membranes with a maximum water flux of about 183 LMH which is considerably higher as compared to the pristine PSF membrane's water flux (i.e., 27 LMH). Moreover, contact angle measurements of membranes were also checked to assess the hydrophilicity of PSF membranes. The results of contact angle also support the water permeability and efficient correlation was observed as contact angle decreases with increasing the content of C-GO. The minimum contact angle with excellent hydrophilicity was shown by the M - 3 membrane and it was found of about +/- 58.19 degrees and this value is close to the M - 4 membrane having maximum CGO content. The photocatalytic performance of the M - 3 membrane was checked under UV-254 nm using methylene blue dye and 97% dye removal was achieved within 220 min of reaction time under neutral pH conditions. The M - 3 membrane having C-GO content of 0.4% was found to be the best membrane with high pure water flux (183 LMH) and efficient dye rejection (82%) capability.

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